B Interesting Vacuum Leak Data

After about one year of research and construction, I have nearly finished building a functioning inertial electrostatic confinement fusion reactor. Just to be clear, I do not wish to discuss the dangerous activities that are involved with my project as I know such topics are prohibited on this forum. My question is purely related to a recent leak test I recorded.

For reference, here is my reactor generating a 7 kV plasma at around 60 microns of mercury:

Here is the plasma at a lower pressure of 10 microns of mercury:

For the leak test, I first evacuated the entire vacuum system using only the mechanical pump to a pressure of 0 microns of mercury. This pressure was read by an electronic gauge that can accurately read pressures within one micron. Then, I closed the gate valve and started my stopwatch. As air began leaking back into the main chamber, I recorded the pressure every 30 seconds. Here is the data I recorded:

I have repeated this test multiple times and I can verify that the results are consistent. When the pressure is below 25 microns, the leak rate follows a quadratic curve. When the pressure in the chamber is above 25 microns, the leak rate suddenly slows and becomes constant. Could 25 microns be the transition point between free molecular flow and viscous flow within my reactor? I asked my AP physics teacher, but he was not certain this was the cause. I don't think off-gassing has anything to do with this, but it does seem like a possibility.

I would greatly appreciate any ideas that might explain this data.

I wasn't sure which "thread level" to tag this thread, so I put "high school" as I am a high school student. If this is wrong, please let me know.

All vacuum systems have a leak rate of some value as there is no such thing a perfectly sealed vacuum chamber (due to real and virtual leaks). The leak rate I recorded from my vacuum chamber is extremely low and more than suitable for my project. I am asking why the leak rate's relationship to time suddenly changes at 25 microns. I am not looking to find the leak, as that would not only be impossible but also pointless considering the tolerances required for my project to work.

The mech pump can pump down to about 10e-4 torr. For fusion to occur, the contents of the chamber must be only deuterium. Therefore, I must use a diffusion pump to get the chamber down to about 10e-7 torr before refilling with deuterium.

I am not looking to find the leak, as that would not only be impossible but also pointless considering the tolerances required for my project to work.

But what is your tolerance? You need 10-7 Torr but your leak rate is 3.745xE10-5/sec. two orders of magnitude greater than your lowest pressure to introduce the deuterium. How can you justify that leak rate?

Getting the chamber down to 10e-7 is a bit overkill, its just that my diffusion pump happens to be capable of doing that. The mech pump is capable of getting the pressure just above the level at which it should be, so a diffusion pump is required. The deuterium will be leaked into the chamber while the gate valve is just barely open in order to sustain a dynamic equilibrium. Refilling the chamber to about 10 microns occurs rather quickly, so the leak rate is not significant. When the dynamic equilibrium is stable, the leak rate will not over-contaminate the deuterium. The deuterium can have some contaminants, just very very few.